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J Thorac Cardiovasc Surg 2002;124:407-410
© 2002 The American Association for Thoracic Surgery

Brief Communications

Paraplegia after iatrogenic extrinsic spinal cord compression after descending thoracic aorta repair: Case report and literature review

From the Department of Cardiovascular Surgery, Centro Cardiologico Fondazione Monzino, University of Milan, Milan, Italy.

Received for publication Nov 6, 2001. Accepted for publication Dec 5, 2001. Address for reprints: Maurizio Roberto, MD, Department of Cardiovascular Surgery, Centro Cardiologico Fondazione Monzino, Via Parea, 4, 20138, Milan, Italy (E-mail: maurizio.roberto{at}cardiologicomonzino.it).

Paraplegia is a devastating complication of descending thoracic aorta repair, with a reported incidence as great as 38%. ¹ We describe an unusual case of postoperative paraplegia after iatrogenic extrinsic spinal compression.

Clinical summary

In December 1999, a 38-year-old man was referred after a computed tomographic scan diagnosis of a syphilitic aneurysm located in the middle third of the descending thoracic aorta and eroding extensively the vertebral bodies at the T7 to T8 level. Because of the sudden appearance of interscapular pain, the patient was admitted to our department in January 2000. An aortogram confirmed the initial diagnosis. A descending thoracic aortic aneurysm repair was planned. A catheter was placed at the L2 level for perioperative cerebrospinal fluid drainage. Thoracic epidural anesthetic and analgesic techniques were not used. The surgical access was a double left posterolateral thoracotomy in the fourth and sixth intercostal spaces. At thoracotomy, brisk bleeding from a branch of the sixth posterior intercostal artery was controlled with difficulty by electrocautery. Packed oxidized cellulose gauzes (Surgicel; Ethicon, Inc, Somerville, NJ) were placed at the level of the costovertebral angle to prevent recurrence of bleeding. Severe dystrophy and osteomalacia of thoracic vertebrae eroded by the aneurysm were observed. Aortic replacement with a prosthetic graft was performed with a previously described quick simple clamping technique. ² Aortic crossclamping time was 11 minutes. No other intraoperative complications occurred.

On awakening from anesthesia, the patient had bilateral leg numbness, which spread progressively up to the umbilicus. Ten hours later, a flaccid paraplegia occurred progressively. Such neurologic injury was judged irreversible and the result of compromise of spinal blood flow during aortic crossclamping. Magnetic resonance imaging (MRI) was performed only 90 hours from onset of the symptoms to enable precise location of the site and assessment of the extent of damage. MRI showed a mass compressing the spinal cord at T6 (Figure 1). An emergency posterior left laminectomy was performed, and a gelatinous mass located in the epidural space and compressing the spinal cord was removed. Microscopic examination confirmed that the mass was formed of oxidized cellulose gauze and hematoma. Unfortunately, the paraplegia did not improve after surgical decompression, although there was a partial sensory recovery.

View larger version (77K): [in this window] [in a new window]   Fig. 1. Left, T1-weighted sagittal view of MRI scan showing mass (black, olive like) located at T6 and compressing spinal cord. Extensive anterior erosion of T7 and T8 vertebral bodies is evident. Right, T2-weighted axial view of MRI scan shows mass with thick white border located at left side of T6 in epidural space and compressing spinal cord.

To our knowledge this is the first report of postoperative paraplegia caused by hematoma and accidental introduction of a widely accepted topical hemostatic agent, ³ oxidized cellulose gauze, into the thoracic spinal epidural space during aortic repair. Fifteen previous reports ^4-11 have described this unusual but catastrophic complication after pulmonary surgery (Table 1). Our case and these previous cases share a surgical access route, posterolateral thoracotomy, and similarly feature difficulty in maintaining hemostasis at the posterior edge of chest incision, proximate to the costovertebral junction. Svensson, ¹² in a recent review of aortic surgery, warned about the theoretical risk of spinal compression and paraplegia after placement of hemostatic gauze. However, paraplegia after thoracic aortic repair is a relatively frequent complication ^1,9 that is generally considered to be the result of compromise of medullary blood flow during aortic crossclamping or after ligation of posterior intercostal arteries. ¹ Because of this bias, the real incidence of iatrogenic extrinsic compression is probably underestimated. In fact, postoperative diagnostic imaging studies with computed tomography and MRI are rarely performed after aortic repair complicated by paraplegia, and autopsy reports are anecdotal. Mawad and colleagues ¹³ published MRI findings from 24 patients who had spinal injury after thoracoabdominal aortic replacement, and extrinsic compression was not detected in any case. On the other hand, paraplegia after thoracotomy for nonaortic surgery is an extremely uncommon complication, with an estimated incidence of 0.08%, ⁹ and therefore prompts urgent etiologic diagnosis with imaging investigations. In addition, with both pathogenetic mechanisms, extrinsic compression and blood flow reduction, the damage is localized in the thoracic spinal cord, and the resulting clinical pictures are similar. Medullary ischemia seems more frequently associated with a low-thoracic spinal injury, ¹³ whereas extrinsic compression is more frequently associated with a midthoracic injury ^4-11 (at the thoracotomy level). Moreover, as with paraplegia resulting from medullary ischemia, ¹⁴ paraplegia from extrinsic spinal compression may arise early (within 24 hours after the patient awakens from the anesthesia) ^4,6,7,10,11 or later ^5,7,8 in the postoperative course. A prompt diagnosis is critical to facilitate spinal recovery by emergency laminectomy. If decompression is performed within 8 hours after symptoms are seen, the incidence of paraplegia is about 20%, whereas after 24 hours the risk of paraplegia rises to 60%. ¹⁵ Neurologic outcome depends not only on the speed of diagnosis but also on the entity and the rate of progression of damage. ¹¹ Unfortunately, in our case and in most cases in the literature (9/15 cases, 60%) paraplegia was not relieved by emergency laminectomy; moreover, in 2 cases (13.3%) paraplegia was associated with a fatal outcome.

In conclusion, paraplegia after aortic repair may not always be the result of irreversible spinal ischemia caused by aortic crossclamping or posterior intercostal artery ligation. Although extrinsic compression by oxidized gauze is an unusual cause of postoperative paraplegia after aortic surgery, it is prudent to maintain an high index of suspicion about this reversible mechanism, particularly if hemostasis in the posterior edge of thoracotomy was difficult during the operation. Close perioperative and postoperative monitoring is imperative to allow detection of early signs of neurologic deterioration. It should be remembered that the onset of neurologic signs may be early or delayed during the postoperative course, and deterioration is more frequently progressive than abrupt. The suspicion of such a causal mechanism should prompt emergency MRI or computed tomography to obtain a diagnosis as soon as possible. The paramount importance of prompt diagnosis and treatment cannot be underscored enough, because the irreversibility of neurologic damage after cord compression is time dependent. Decompression laminectomy should be performed within 8 hours from clinical presentation for the highest probability of neurologic recovery.

References

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This Article Full Text (PDF) Alert me when this article is cited Alert me if a correction is posted Citation Map Services Email this article to a friend Similar articles in this journal Similar articles in PubMed Alert me to new issues of the journal Add to Personal Folders Download to citation manager Author home page(s): Paolo Biglioli Alessandro Parolari Rita Spirito Permission Requests Citing Articles Citing Articles via HighWire Citing Articles via Google Scholar Google Scholar Articles by Biglioli, P. Articles by Spirito, R. Search for Related Content PubMed PubMed Citation Articles by Biglioli, P. Articles by Spirito, R. Related Collections Great vessels